履历

• 厦门大学理学博士（2002-2007）

• 厦门大学博士后（2007-2012）

• 香港大学访问学者（2009.10-2010.04）

• 巴黎第六大学博士后（2010.09-2011.06）

• 成均馆大学访问学者（2016.12-2017.12）

• 厦门大学副教授（2012-2019）

• 厦门大学教授（2019-至今）

研究方向

• 海洋环境生物学

• 海洋生态毒理学

代表性论文

1. Wei H, Xie DM, Wang DZ*, Wang MH*, 2024. A Meta-analysis reveals global change stressors potentially aggravate mercury toxicity in marine biota. Environmental Science & Technology, 58: 219-230.

2. Bai ZA, Wang N, Kim MS, Lee YH, Lee JS*, Wang DZ*, Wang MH*, 2023. Physiological and molecular responses of a marine copepod under multigenerational exposure to coastal warming and mercury at an environmentally realistic concentration. Environmental Science & Technology Letters, 10: 240-246.

3. Xie DM, Zhang HM, Wei H, Lin L, Wang DZ, Wang MH*, 2023. Nanoplastics potentiate mercury toxicity in a marine copepod under multigenerational exposure. Aquatic Toxicology, 258: 106497.

4. Bai ZA, Zhang Y, Cheng LM, Zhou XP*, Wang MH*, 2023. Nanoplastics pose a greater effect than microplastics in enhancing mercury toxicity to marine copepods. Chemosphere, 325: 138371.

5. Lee YH*, Kim MS, Wang MH, Bhandari RK, Park HG, Wu RSS, Lee JS*, 2022. Epigenetic plasticity enables copepods to cope with ocean acidification. Nature Climate Change, 12: 918-927.

6. Wei H, Qian J, Xie ZX, Lin L, Wang DZ*, Wang MH*, 2022. Diel fluctuation superimposed on steady high pCO₂ generates the most serious cadmium toxicity to marine copepods. Environmental Science & Technology, 56: 13179-13188.

7. Cheng LM, Zhang SF, Xie ZX, Li DX, Lin L, Wang MH*, Wang DZ*, 2022. Metabolic adaptation of a globally important diatom following 700 generations of selection under a warmer temperature. Environmental Science & Technology, 56: 5247-5255.

8. Xie DM, Wei H, Lee JS, Wang MH*, 2022. Mercury can be transported into marine copepod by polystyrene nanoplastics but is not bioaccumulated: an increased risk?. Environmental Pollution, 303: 119170.

9. Wang MH*, Chen JY, Lee YH, Lee JS, Wang DZ, 2021. Projected near-future ocean acidification decreases mercury toxicity in marine copepods. Environmental Pollution, 284: 117140.

10. Bai ZA, Wang N, Wang MH*, 2021. Effects of microplastics on marine copepods. Ecotoxicology and Environmental Safety, 217: 112243. [review paper]

11. Bai ZA, Wang MH*, 2020. Warmer temperature increases mercury toxicity in a marine copepod. Ecotoxicology and Environmental Safety, 201: 110861.

12. Zhang C, Jeong CB, Lee JS, Wang DZ, Wang MH*, 2019. Transgenerational proteome plasticity in resilience of a marine copepod in response to environmentally relevant concentrations of microplastics. Environmental Science & Technology, 53: 8426-8436.

13. Wang MH*, Zhang C, Lee JS*, 2018. Quantitative shotgun proteomics associates molecular-level cadmium toxicity responses with compromised growth and reproduction in a marine copepod under multigenerational exposure. Environmental Science & Technology, 52: 1612-1623.

14. Wang MH*, Jeong CB, Lee YH, Lee JS*, 2018. Effects of ocean acidification on copepods. Aquatic Toxicology, 196: 17-24. [review paper]

15. Wang MH*, Lee JS, Li Y, 2017. Global proteome profiling of a marine copepod and the mitigating effect of ocean acidification on mercury toxicity after multigenerational exposure. Environmental Science & Technology, 51: 5820-5831.

16. Li Y, Wang WX, Wang MH*, 2017. Alleviation of mercury toxicity to a marine copepod under multigenerational exposure by ocean acidification. Scientific Reports, 7: 324.

17. Wang MH, Jeong CB, Li Y, Lee JS*, 2017. Different transcriptomic responses of two marine copepods, Tigriopus japonicus and Pseudodiaptomus annandalei, to a low dose of mercury chloride (HgCl₂). Aquatic Toxicology, 187: 124-131

18. Xu XQ, Shi L, Wang MH*, 2016. Comparative quantitative proteomics unveils putative mechanisms involved into mercury toxicity and tolerance in Tigriopus japonicus under multigenerational exposure scenario. Environmental Pollution, 218: 1287-1297.

19. Li HY, Shi L, Wang DZ, Wang MH*, 2015. Impacts of mercury exposure on life history traits of Tigriopus japonicus: multigeneration effects and recovery from pollution. Aquatic Toxicology, 166: 42-49.

20. Wang YY, Wang DZ, Lin L, Wang MH*, 2015. Quantitative proteomic analysis reveals proteins involved in the neurotoxicity of marine medaka Oryzias melastigma chronically exposed to inorganic mercury. Chemosphere, 119: 1126-1133.

21. Wang MH, Wang YY, Zhang L, Wang J, Hong HS, Wang DZ*, 2013. Quantitative proteomic analysis reveals the mode-of-action for chronic mercury hepatotoxicity to marine medaka (Oryzias melastigma). Aquatic Toxicology, 130-131: 123-131.

22. Wang MH, Wang YY, Wang J, Lin L, Hong HS, Wang DZ*, 2011. Proteome profiles in medaka (Oryzias melastigma) liver and brain experimentally exposed to acute inorganic mercury. Aquatic Toxicology, 103: 129-139.

开设课程

• 生物化学

• 环境微生物学实验

• 分子生态毒理学

科研课题

1、海洋桡足类对微塑料和汞污染复合作用的生理响应及其分子机理，国家自然科学基金面上项目，2019.01-2022.12，项目负责人

2、海洋酸化和金属汞对海洋桡足类的联合毒性效应及其机理，国家自然科学基金面上项目，2015.01-2018.12，项目负责人

3、汞对海洋鱼类的毒性效应及其机制研究，厦门大学中央高校基本科研业务费，2013.04-2015.12，项目负责人

4、汞胁迫下海洋青鳉鱼蛋白质组学的研究，国家自然科学基金青年项目，2009.01-2011.12，项目负责人

荣誉奖励

1、2017年获福建省优秀硕士学位论文（指导教师）

2、2015年入选“海洋领域优秀科技青年”

3、2014年入选“福建省高等学校新世纪优秀人才”